COM-HPC – the next-gen Computer-on-Module standard
COM-HPC is specifically designed to address the ever-increasing performance demands and bandwidth needs of all the new and upcoming edge and embedded server applications that cannot be served by previous Computer-on-Module specifications. As such it will be the game changer for systems covering todays and upcoming demands in the digitization era.
The COM-HPC standard is hosted by the PCI Industrial Computer Manufacturing Group (PICMG). It is broadly supported as of 2023 by up to now 29 companies and an even higher number of experienced engineers in the various COM-HPC working groups. The standardization effort at PICMG was initiated by congatec. Christian Eder, director product marketing at congatec, holds the position of the chairman for the technical subcommittee.
To learn about the general advantages of the Computer-on-Module concept and the available COMs standards besides COM-HPC, COM Express, SMARC module and Qseven, please click here: https://www.congatec.com/en/technologies/embedded-computer-on-modules/
COM-HPC is specifically designed to address the ever-increasing performance demands and bandwidth needs of all the new and upcoming edge and embedded server applications that cannot be served by previous Computer-on-Module specifications. As such it will be the game changer for systems covering todays and upcoming demands in the digitization era.
The COM-HPC standard is hosted by the PCI Industrial Computer Manufacturing Group (PICMG). It is broadly supported as of 2023 by up to now 29 companies and an even higher number of experienced engineers in the various COM-HPC working groups. The standardization effort at PICMG was initiated by congatec. Christian Eder, director product marketing at congatec, holds the position of the chairman for the technical subcommittee.
To learn about the general advantages of the Computer-on-Module concept and the available COMs standards besides COM-HPC, COM Express, SMARC module and Qseven, please click here: https://www.congatec.com/en/technologies/embedded-computer-on-modules/
COM-HPC Client
Unmatched features and performance for next-gen edge and embedded computing devices with powerful graphics
COM-HPC Server
The new standard for powerful, sustainable, and upgradeable edge servers in harsh environmental conditions
COM-HPC ecosystem
Everything designers need for instant prototyping and roll-out of high-performance embedded and edge computing systems
Facts, Features and Benefits of COM-HPC
| Facts | Features | Benefits |
| Vendor independent standard | COM-HPC Modules are available from many different vendors, all exchangeable within the same pin-out and footprint | Increased availability and reliable multi source strategy to improve production scalability and resilience against supply chain issues |
| Three different pinouts and 6 different sizes | COM-HPC modules come as COM-HPC mini, COM-HPC Client and COM-HPC Server modules | From SFF applications to full blown server designs, developers can leverage the same design principles for different applications or complete product families reducing NRE and increase design security. |
| Processor and computing core agnostic | COM-HPC modules can host any computing core from x86 multicore processors and Arm SoCs to graphics processing units as well as ASICs and FGPAs | Identical design approach for all different computing designs accelerates and simplifies application design and improves time to market. Reliable upgrade paths across processor generations increase application life cycle and ROI (Return On Investment). |
| Support of future oriented interface technology | Support of more and higher bandwidth I/Os including PCIe up to Gen 5 and beyond, USB4 / Thunderbolt 4 and up to 8 x 25 GbE | Future oriented interface technology for an extra-long application life cycle without bottle necks in data transfer rates |
| Increased power budgets | Higher performance thanks to power budgets of up to 107 watts on credit card sized modules, 251 Watts for COM-HPC client and 358 Watts for server designs | Increased power budgets provide more headroom for designers to leverage most powerful CPUs, I/Os and memory, which all require more power for more performance. OEMs should look for vendors offering also optimized cooling solutions. |
| Facts | Features | Benefits |
| Vendor independent standard | COM-HPC Modules are available from many different vendors, all exchangeable within the same pin-out and footprint | Increased availability and reliable multi source strategy to improve production scalability and resilience against supply chain issues |
| Three different pinouts and 6 different sizes | COM-HPC modules come as COM-HPC mini, COM-HPC Client and COM-HPC Server modules | From SFF applications to full blown server designs, developers can leverage the same design principles for different applications or complete product families reducing NRE and increase design security. |
| Processor and computing core agnostic | COM-HPC modules can host any computing core from x86 multicore processors and Arm SoCs to graphics processing units as well as ASICs and FGPAs | Identical design approach for all different computing designs accelerates and simplifies application design and improves time to market. Reliable upgrade paths across processor generations increase application life cycle and ROI (Return On Investment). |
| Support of future oriented interface technology | Support of more and higher bandwidth I/Os including PCIe up to Gen 5 and beyond, USB4 / Thunderbolt 4 and up to 8 x 25 GbE | Future oriented interface technology for an extra-long application life cycle without bottle necks in data transfer rates |
| Increased power budgets | Higher performance thanks to power budgets of up to 107 watts on credit card sized modules, 251 Watts for COM-HPC client and 358 Watts for server designs | Increased power budgets provide more headroom for designers to leverage most powerful CPUs, I/Os and memory, which all require more power for more performance. OEMs should look for vendors offering also optimized cooling solutions. |
Application oriented sizes and feature-sets - the COM-HPC specifications at a glance
Note: Not all I/Os are available in parallel. Some pins are shared.
Note: Not all I/Os are available in parallel. Some pins are shared.
Feature Overview
Further COM-HPC ecosystem building-blocks
COM-HPC specification
The COM-HPC specification is described in 3 documents
- COM-HPC® Module Base Specification Revision 1.15
- COM-HPC Platform Management Interface Specification
- COM-HPC Embedded EEPROM Specification
The specification documents are available for purchase:
The COM-HPC specification is described in 3 documents
- COM-HPC® Module Base Specification Revision 1.15
- COM-HPC Platform Management Interface Specification
- COM-HPC Embedded EEPROM Specification
The specification documents are available for purchase:
COM-HPC Carrier Design Guide
This document provides information for designing project specific Carrier Boards for systems using COM-HPC Modules. This document is a design guide and not a specification document. It should be used together with the COM-HPC Base Specification, with other industry specifications, with silicon and component vendor’s documentation and with your COM-HPC Module vendor’s product documentation.
This document provides information for designing project specific Carrier Boards for systems using COM-HPC Modules. This document is a design guide and not a specification document. It should be used together with the COM-HPC Base Specification, with other industry specifications, with silicon and component vendor’s documentation and with your COM-HPC Module vendor’s product documentation.
COM-HPC webinars, trainings and services
Our new carrier board design training program to impart best practice knowledge on how to design-in leading Computer-on-Module COM-HPC modules. The goal is to provide system architects with a quick, easy, and efficient deep dive into the design rules of this PICMG standard. The training courses will guide engineers through all the mandatory and recommended design essentials and best practice carrier board schematics. It will efficiently simplify OEM’s carrier board design projects.
Our new carrier board design training program to impart best practice knowledge on how to design-in leading Computer-on-Module COM-HPC modules. The goal is to provide system architects with a quick, easy, and efficient deep dive into the design rules of this PICMG standard. The training courses will guide engineers through all the mandatory and recommended design essentials and best practice carrier board schematics. It will efficiently simplify OEM’s carrier board design projects.
